Dr Greg Mazur

I engineer quantum devices at the interface of semiconductors and superconductors, targeting the creation of novel electronic states of matter such as topological superconductivity. This exotic state holds immense promise, particularly for fault-tolerant quantum computing. My work over the past five years has focused on building the essential toolkit—developing novel materials, advanced fabrication processes, and sensitive measurement techniques necessary for realizing these states in solid-state devices. At Oxford Materials, I will further expand this research, exploring innovative quantum computing architectures such as Quantum Hall effect and superconductivity, Kitaev chains, and superconducting electronics designed explicitly for low-energy computing. My goal remains to push the boundaries of quantum materials and devices, unlocking new capabilities in scalable, robust quantum technologies.